CN1365306A - Disintegrative core for high pressure casting, method for manufacturing the same and method for extracting the same - Google Patents

Abstract

Disclosed is a method for manufacturing a disintegrative core for use in high pressure casting. The disintegrative core can be applied where a light metal such as an aluminum alloy or magnesium alloy is subjected to high pressure casting, such as die casting or squeeze casting and is manufactured from a water-soluble salt which is high in latent heat and ranges, in melting point, from 280 to 520 DEG C and, in heat transfer coefficient ( kappa ), from 9.8x10<-2> to 1.2x10 W/m- DEG C. The water-soluble salt, alone or in combination with a fine hard powder, is melted and solidified in a core mold. Alternatively, the melt is processed into a fine powder which is then molded in a core mold. The method can be applied for the manufacture of complex shapes of cores. Also, disclosed is a method for extracting such a core from a high pressure molded product.

Description

Be used for the defeated and dispersed core of high-pressure casting, the method for making the method for this core and extracting this core

Technical field

The present invention relates to a kind of method that is used to make the defeated and dispersed core that is used for high-pressure casting such as die casting or compression casting.More specifically, the present invention relates to make complicated defeated and dispersed core with water soluble salt.The present invention also relates to such water soluble salt core.In addition, the invention still further relates to a kind of method that extracts this water soluble salt core.

Prior art

Usually, in order to prepare the foundry goods with complex internal structure or indent, the technology of preparing of core is essential.

Under the situation of gravitational casting,, then a kind of motlten metal is imported model and in model, solidify the inside that a kind of defeated and dispersed core of being made by hard sand or ceramic powder or water soluble salt core are placed on model.After this, defeated and dispersed core is passed through machinery and chemical method removal or water or steam with the stripping of salt core.

For internal combustion engine, form an annular oil cooling but during passage at internal piston, salt core technology of preparing is useful.

U.S. Pat 3645491, its content have disclosed a kind of core technology of preparing here with reference to combination, and the water soluble salt of pulverizing in this technology combines with 10% synthetic resin as bonding agent.U.S. Pat 4629708, its content have disclosed a kind of core technology of preparing here with reference to combination, in this technology, and a kind of water soluble salt such as sodium chloride and potassium chloride and pottery as aluminium oxide and mix also sintering as the organic siliconresin of bonding agent.

Yet under actual conditions, in order to prepare a kind of high performance aluminium alloy or composite material piston, piston must be through high-pressure casting such as die casting and compression casting.

In this high-pressure casting, because motlten metal collapses because of high pressure by inside or the core that casting pressure infiltrates core, conventional defeated and dispersed core or the conventional salt core made with sand can not be used for high-pressure casting method.

Recently, several core technologies of preparing that can be used in the high-pressure casting requirement have been developed.For example, U.S. Pat 3963818, its content have disclosed a kind of core technology of preparing here with reference to combination, and a kind of water soluble salt of pulverizing such as sodium chloride and potassium chloride in this technology add about 1% water, at 1.8～4.0 tons/cm ²The high pressure compacted under, then 100～300 ℃ of following sintering 20 minutes.

U.S. Pat 4438804, its content is here with reference to combination, disclosed a kind of core forming method, a kind of in the method water soluble salt powder mixes with hard powder such as zircon sand, and is under high pressure molded and shaped with potash, brium carbonate or alkali silicate as bonding agent.

U.S. Pat 3407864, its content is here with reference to combination, disclosed a kind of core forming method, a kind of in the method water soluble salt powder such as sodium chloride and potassium chloride mix with the borax of 3% weight, the magnesia of 1% weight and the mica of 1% weight, and is under high pressure molded and shaped then.

BP GB2156720, its content is here with reference to combination, disclosed a kind of core technology of preparing with the water soluble salt shaped by fluid pressure pulverized.

Utilize among the preparation method of high pressure or hydraulic pressure at these, gap between particles is reduced to minimum, its adhesion strengthens, as long as this core keeps shape invariance under the casting pressure of 5000～20000psi (pound/square inch), just can prevent that motlten metal from infiltrating the inside of core.

Yet these conventional methods have following shortcoming, and its application is limited by the size and dimension of fuse, and because the strict control of particle size of salt powder, its production cost increases.

In addition, because water dissolving fuse needs a large amount of time so remove fuse fully from the foundry goods of high-pressure casting.

Simultaneously, U.S. Pat 4446906, US4875517 and US5303761, its content is here with reference to combination, disclosed a kind of core preparation method, in the method with a kind of water soluble salt such as sodium chloride and potassium chloride heating, fusing, and selectively combine and carry out die casting with grit such as silica and aluminium oxide.

In fact better a little aspect the forming method of fuse shape and productivity ratio, but these conventional methods since its application of size of fuse be limited.In addition, when water dissolving fuse, conventional method needs a large amount of time to remove fuse fully from the foundry goods of high-pressure casting.

U.S. Pat 4840219, its content is here with reference to combination, disclosed a kind of core preparation method, the fuse salt that contains the mixture of 40% weight sodium chloride and 40% weight sodium carbonate in the method adds 10～50% hard powder to form a kind of slurry, and this slurry is imported in the model.U.S. Pat 3459253, its content have disclosed a kind of core preparation method here with reference to combination, and wire or glass fibre join in the molten mixture salt that contains sulfate and carbonate in the method, to form a kind of slurry that is imported into a model.

These methods have more variation than compacting method or die casting method on the shape and size of fuse.Therebetween, because the fusion temperature of used salt is up to more than 660 ℃, because that solidification shrinkage is easy to generate is cracked, so fuse becomes frangible and is difficult to operation.And, because fuse must dissolve by water, therefore need the fuse of a considerable time removal high-pressure casting foundry goods, thereby resulting core salt can not be reused.

Summary of the invention

With the forgoing problems and concerns in mind, an object of the present invention is to provide a kind of a kind of method that is used for the defeated and dispersed core of high-pressure casting that is used to make, can make the fuse of a complicated shape simply, and by using a kind of aluminium alloy of reusing or a kind of magnesium alloy to obtain a kind of fuse that is used for high-pressure casting.

Another object of the present invention provides a kind of fuse that is used for high-pressure casting.

Another object of the present invention provides a kind of method that extracts this fuse.

In one embodiment, one object of the present invention realizes by the method that manufacturing is used for the fuse of high-pressure casting, and wherein a kind of water soluble salt combines separately or with a kind of fine hard powder, and fusing is also solidified in a core; Perhaps be processed into a kind of fine powder, and moulding in a core under pressure, said water soluble salt has high latent heat, and its fusing point is in 280～520 ℃ of scopes, and heat transfer coefficient (k) is 9.8 * 10 ^-2To 1.2 * 10W/m ℃, defeated and dispersed thus core is made with this water soluble salt.

In another embodiment, another object of the present invention realizes by the defeated and dispersed core that is used for high-pressure casting with said method manufacturing.

In the another one embodiment, another object of the present invention is to realize by the method that extracts the defeated and dispersed core that is used for high-pressure casting from a high-pressure casting foundry goods, wherein core is heated to a fusion temperature, the high-pressure casting foundry goods does not have thermal deformation under this temperature, the core melt is drawn out of, and the foundry goods water is washed.

Finish preferred forms of the present invention

Following the present invention describes a kind of defeated and dispersed core that is used for high-pressure casting, and the method for making and extract this fuse.

The defeated and dispersed core that is used for high-pressure casting is made with a kind of water soluble salt, and wherein a kind of water soluble salt combines separately or with a kind of fine hard powder, and fusing is also solidified in a core; Perhaps be processed into a kind of fine powder, and moulding in a core under pressure, the fusing point of said water soluble salt is in 280～520 ℃ of scopes, and heat transfer coefficient (k) is 9.8 * 10 ^-2To 1.2 * 10W/m ℃, have high latent heat, defeated and dispersed thus core can be applied to a kind of light metal such as aluminium alloy or magnesium alloy and carry out high-pressure casting such as die casting or compression casting.

Because it has the fusing point of 280～520 ℃ of scopes, heat transfer coefficient (k) is 9.8 * 10 ^-2To 1.2 * 10W/m ℃, have high latent heat, water soluble salt is from by potassium nitrate (KNO ₃), potassium nitrite (KNO ₂), sodium nitrate (NaNO ₃), natrium nitrosum (NaNO ₂), copper chloride (CuCl ₂), sodium chloride (NaCl), potassium chloride (KCl), lithium chloride (LiCl), lead chloride (PbCl ₂), magnesium chloride (MgCl ₂), barium chloride (BaCl ₂), calcium chloride (CaCl ₂) and its mixture group of constituting in select.

About fusing point, known potassium nitrate (KNO ₃) be 333 ℃, potassium nitrite (KNO ₂) be 290 ℃, sodium nitrate (NaNO ₃) be 308 ℃, natrium nitrosum (NaNO ₂) be 270 ℃.

That measures contains NaCl: CuCl ₂Weight ratio is that the fusing point of 82: 17 salt-mixture is 315 ℃, contains KNO ₃: the KCl weight ratio is that the fusing point of 92: 8 salt-mixture is 320 ℃, contains KCl: the LiCl weight ratio is that the fusing point of 54: 46 salt-mixture is 320 ℃, contains PbCl ₂: the NaCl weight ratio is that the fusing point of 93: 7 salt-mixture is 410 ℃, contains MgCl ₂: the NaCl weight ratio is that the fusing point of 54: 44 salt-mixture is 430 ℃, contains CaCl ₂: BaCl ₂Weight ratio is that the fusing point of 53: 47 salt-mixture is 450 ℃, and contains NaCl: CaCl ₂Weight ratio is that the fusing point of 54: 46 salt-mixture is 510 ℃, and the heat transfer coefficient of every kind of salt (k) scope is 9.8 * 10 ^-2To 1.2 * 10W/m ℃.

This water soluble salt solidifies in model.At this moment, the water soluble salt of fusion imports in the model under than high 30～80 ℃ temperature of its fusing point, thereby has reduced because solidification shrinkage causes cracked generation.

In this, if the temperature of fusion water soluble salt exceeds its fusing point more than 80 ℃, when solidifying, will produce and shrink the cracked and hole that causes.On the other hand, if temperature exceeds 30 ℃ of its fusing point less thaies, water soluble salt just is difficult in the injection model.

In addition, half of the controlled fusing point that is no more than the every kind of salt that imports of model temperature.Its reason is, if model temperature is lower, salt just can not import in the model well.On the other hand, if model temperature is higher, the surface texture that solidifies core becomes coarse, and the deep of core will produce thermal deformation when high-pressure casting like this.

Therefore, the material that is suitable for model is a graphite, and it has splendid heat conductivity.When model was made with graphite, fuse salt imported in the model easily, and it is very fast that setting rate becomes, and the surface texture of solidifying core like this is good.

In fuse salt, can add powder, fiber and the whisker of thin thermally-stabilised grit such as the non-reacting metal of chemistry or pottery.In order to use, they are homodisperse.

As an example, and and unrestricted, be suitable for metallic particle and be having high rigidity and with the silicon of the similar proportion of said salt.Equally, aluminium oxide (Al ₂O ₃), carborundum (SiC) etc. also can be used as ceramic particle.Can use such fiber or whisker.

Preferably the addition of grit is 5～30% weight ratios.If the addition of grit surpasses 30% weight ratio, the contraction in the time of can suppressing to solidify is uprised by the intensity of the core that peptizaiton produced.But it can produce the part grit and adhere to problem on the high-pressure casting cast(ing) surface.On the other hand, if the amount that adds is lower than 5% weight ratio, just can not obtain the additive effect of grit.

Water soluble salt is processed into a kind of powder, imports in the core and be molded as a fuse.In this, optimum is that the water soluble salt powder has the size of 40～100 μ m, to be used at forming under the pressure.Equally, preferably use a kind of not with the lubricant of this salt chemically reactive so that cast member is easily and model separation.

The scope of the briquetting pressure that is produced by pressurization at this moment, is preferably 60～100MPa.In addition, molded core is preferably in its fusing point and kept 0.5～1 minute, so that the surface texture refinement of fuse.

The resulting fuse of the method according to this invention can be used in the high-pressure casting of a kind of metal alloy such as aluminium alloy or magnesium alloy.

When low heat capacity metal such as aluminium alloy and magnesium alloy high-pressure casting, model is full of fused mass immediately within 0.5～3 second.Because metal alloy such as aluminium alloy or magnesium alloy, though have the fusing point (280～520 ℃) of the common pouring temperature (640～720 ℃) that is lower than common motlten metal, only have the heat transfer coefficient (k) (9.8 * 10 of steel heat transfer coefficient (331～403W/m ℃) 1/1500～1/3000 ^-2～1.2 * 10W/m ℃), steel is the typical material of high-pressure casting mould.Molten alloy is once importing the violent cooling of model.

Specifically, low because the thermal conductivity ratio steel of fuse is the material of model, so most of heat that fused mass keeps passes to model, and heat passes hardly to fuse.Simultaneously, the high latent heat of fuse only allows on surface to 2～the 3 μ m degree of depth rather than produce thermal deformation in shape whole.In other words, since the high latent heat of fuse, indeformable on its global shape, the not variation of fuse.

As the routine casting of the instantaneous high-pressure casting of finishing in, water soluble salt of the present invention is suitable for doing the fuse of low heat capacity cast metal such as aluminium and magnesium.

A kind of method of removing fuse from the foundry goods of high-pressure casting is provided simultaneously, just, a kind of method that from foundry goods, extracts fuse, undertaken by following step, be about to this fuse and be heated to fusion temperature, foundry goods in this melt temperature high-pressure casting does not have thermal deformation, extracts the fuse fused mass, and water flushing foundry goods.

When the high-pressure casting foundry goods being heated to 320～550 ℃ 3～5 minutes the time, the inside of heat transferred fuse, fuse fusing and taking out like this.The material that obtains like this can be used further to the moulding of fuse, to obtain benefit economically.

Can obtain better understanding of the present invention according to the following examples, these embodiment set forth for example, and are not construed as limiting the invention.

Embodiment 1

With KNO ₃(333 ℃ of fusing points), KNO ₂(290 ℃ of fusing points), NaNO ₃(308 ℃ of fusing points) NaNO ₂(270 ℃ of fusing points), NaCl: CuCl ₂(82: 17) mixture (315 ℃ of fusing points), KNO ₃: KCl (92: 8) mixture (320 ℃ of fusing points), KCl: LiCl (54: 46) mixture (320 ℃ of fusing points), PbCl ₂: NaCl (93: 7) mixture (410 ℃ of fusing points), MgCl ₂: NaCl (54: 44) mixture (430 ℃ of fusing points), CaCl ₂: BaCl ₂(53: 47) mixture (450 ℃ of fusing points), NaCl: CaCl ₂(54: 46) mixture (510 ℃ of fusing points) is heated to above about 30～80 ℃ temperature of its fusing point respectively separately.Import every kind of fuse salt in the model lentamente and import respectively in the graphite model, these two kinds of models all are preheating to half temperature of this salt fusing point, to make the cylindrical core of a diameter 20mm length 100mm.

The gained core is carried out die casting and compression casting in model, the space distance between the wall of model and the fuse on diameter is arranged to 3mm, 5mm, 7mm, 9mm, 12mm and 15mm, and measures its performance.The result below table 1 and table 2 in provide.

Performance for the analytical test fuse, ADC12 Al alloy is heated to 670 ℃ of high-pressure castings of fused mass being carried out die casting with the feed speed of 1.8m/sec, carry out the high-pressure casting of compression casting with the feed speed of 0.32m/sec, the pressure of die casting and compression casting is 980kg/cm ²After high-pressure casting, the extraction of fuse is by realizing at 320～550 ℃ of following heating high-pressure castings 3～5 minutes, fusing fuse and water flushing foundry goods.

Table 1

The performance of prepared fuse in punching block

Core	Die casting (the gap mm between core and the model)						Compression casting (the gap mm between core and the model)
													???3	??5	??7	??9	??12	??15	??3	??5	??7	??9	??12	??15
	????NaNO 2	??○	??○	??×	??×	??×	??×	??○	??×	??×	??×	??×													??×
????KNO 2													??○	??○	??×	??×	??×	??×	??○	??×	??×	??×	??×	??×
	????NaNO 3	??○	??○	??○	??×	??×	??×	??○	??×	??×	??×	??×													??×
??NaCl∶CuCl 2????(82∶17)													??○	??○	??○	??×	??×	??×	??○	??×	??×	??×	??×	??×
	??KNO 3∶KCl ????(92∶8)	??○	??○	??○	??○	??×	??×	??○	??○	??×	??×	??×													??×
??KCl∶LiCl ????(54∶46)													??○	??○	??○	??○	??×	??×	??○	??○	??×	??×	??×	??×
	????KNO 3	??○	??○	??○	??○	??○	??×	??○	??○	??○	??×	??×													??×
??PbCl 2∶NaCl ????(93∶7)													??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??×	??×
	??MgCl 2∶NaCl ??(54∶44)	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○													??×
??CaCl 2∶BaCl 2??(53∶47)													??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??×
	??NaCl∶CaCl 2??(54∶46)	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○													??×

Annotate) zero: be fit to (surface appearance is good)

*: be not suitable for (surface appearance is poor)

Table 2

The performance of prepared fuse in the graphite model

Core	Die casting (the gap mm between core and the model)						Compression casting (the gap mm between core and the model)
													??3	??5	??7	??9	??12	??15	??3	??5	??7	??9	??12	??15
	????NaNO 2	??○	??○	??○	??×	??×	??×	??○	??×	??×	??×	??×													??×
????KNO 2													??○	??○	??○	??○	??×	??×	??○	??×	??×	??×	??×	??×
	????NaNO 3	??○	??○	??○	??○	??×	??×	??○	??○	??×	??×	??×													??×
????NaCl∶CuCl ????(82∶17)													??○	??○	??○	??○	??○	??×	??○	??○	??○	??×	??×	??×
	????KNO 3∶KCl ????(92∶8)	??○	??○	??○	??○	??×	??×	??○	??○	??○	??×	??×													??×
????KCl∶LiCl ????(54∶46)													??○	??○	??○	??○	??○	??×	??○	??○	??○	??×	??×	??×
	????KNO 3	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??×													??×
??PbCl 2∶NaCl ????(93∶7)													??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??×	??×
	??MgCl 2∶NaCl ????(54∶44)	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○													??×
??CaCl 2∶BaCl 2????(53∶47)													??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??×
	??NaCl∶CaCl 2????(54∶46)	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○													??×

Annotate) zero: be fit to (surface appearance is good)

*: be not suitable for (surface appearance is poor)

Embodiment 2

With KNO3 (333 ℃ of fusing points), KNO ₂(290 ℃ of fusing points), NaNO ₃(308 ℃ of fusing points) NaNO ₂(270 ℃ of fusing points), NaCl: CuCL ₂(82: 17) mixture (315 ℃ of fusing points), KNO ₃: KCl (92: 8) mixture (320 ℃ of fusing points), KCl: LiCl (54: 46) mixture (320 ℃ of fusing points), PbCl ₂: NaCl (93: 7) mixture (410 ℃ of fusing points), MgCl ₂: NaCl (54: 44) mixture (430 ℃ of fusing points), CaCl ₂: BaCl ₂(53: 47) mixture (450 ℃ of fusing points), NaCl: CaCl ₂(54: 46) mixture (510 ℃ of fusing points) is heated to above about 30～80 ℃ temperature of its fusing point respectively separately, with the aluminium oxide (Al of the weight ratio 20～30% of diameter 40～100 μ m ₂O ₃: Japanese Isolite.Co.Ltd. produces) join in the melt of heating and evenly disperse.Then this dispersion is imported lentamente in the graphite model, this model is preheating to half temperature of this dispersion fusing point, to make the cylindrical core of a diameter 20mm length 100mm.

Equally, the silicon carbide whisker (SiC: Japanese TongHae Carbon Co.Ltd. produces) of the weight ratio 5～15% of diameter 0.5～1 μ m, length 100～400 μ m is evenly disperseed, to make a fuse.

The gained core is carried out die casting and compression casting in model, the space distance between the wall of model and the fuse on diameter is arranged to 3mm, 5mm, 7mm, 9mm, 12mm and 15mm, and measures its performance.Provide in result's table 3 below.

Performance for the analytical test fuse, ADC12 Al alloy is heated to 670 ℃ of high-pressure castings of fused mass being carried out die casting with the feed speed of 1.8m/sec, carry out the high-pressure casting of compression casting with the feed speed of 0.32m/sec, the pressure of die casting and compression casting is 980kg/cm ²After high-pressure casting, the extraction of fuse is by realizing at 320～550 ℃ of following heating high-pressure castings 3～5 minutes, fusing fuse and water flushing foundry goods.

Table 3

Performance with mixture prepared fuse in the graphite model of grit

Core	Die casting (the gap mm between core and the model)						Compression casting (the gap mm between core and the model)
													??3	??5	??7	??9	??12	??15	??3	??5	??7	??9	??12	??15
	??NaNO 2+Al 2O 3	??○	??○	??○	??○	??×	??×	??○	??○	??×	??×	??×													??×
??KNO 2+SiC													??○	??○	??○	??○	??×	??×	??○	??○	??×	??×	??×	??×
	??NaNO 3+Al 2O 3	??○	??○	??○	??○	??×	??×	??○	??○	??○	??×	??×													??×
??NaCl∶CuCl 2??(82∶17)+Al 2O 3													??○	??○	??○	??○	??○	??×	??○	??○	??○	??×	??×	??×
	??KNO 3∶KCl ??(92∶8)+Al 2O 3	??○	??○	??○	??○	??○	??×	??○	??○	??○	??○	??×													??×
??KCl∶LiCl ??(54∶46)+SiC													??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??×
	??KNO 3+SiC	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○													??×
??PbCl 2∶NaCl ??(93∶7)+Al 2O 3													??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○
	??MgCl 2∶NaCl ??(54∶44)+SiC	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○													??○
??CaCl 2∶BaCl 2??(53∶47)+SiC													??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○
	??NaCl∶CaCl 2	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○	??○													??○

??(54∶46)+Al 2O 3

Annotate) zero: be fit to (surface appearance is good)

*: be not suitable for (surface appearance is poor)

Embodiment 3

With KNO ₃(333 ℃ of fusing points), KNO ₂(290 ℃ of fusing points), NaNO ₃(308 ℃ of fusing points) NaNO ₂(270 ℃ of fusing points), NaCl: CuCl ₂(82: 17) mixture (315 ℃ of fusing points), KNO ₃: KCl (92: 8) mixture (320 ℃ of fusing points), KCl: LiCl (54: 46) mixture (320 ℃ of fusing points), PbCl ₂: NaCl (93: 7) mixture (410 ℃ of fusing points), MgCl ₂: NaCl (54: 44) mixture (430 ℃ of fusing points), CaCl ₂: BaCl ₂(53: 47) mixture (450 ℃ of fusing points), NaCl: CaCl ₂(54: 46) mixture (510 ℃ of fusing points) is pulverized the particle into about 40～100 μ m, and the mica that adds weight ratio 1% is as lubricant, and is pressurized to the pressure of 80～100MPa, to be molded as the cylindrical core of a diameter 20mm length 100mm.With molded fuse under the fusing point of its salt, kept 0.5～1 minute, to make a fuse.

Aluminium oxide (Al with the weight ratio 15% of diameter 40～100 μ m ₂O ₃: Japanese Isolite.Co.Ltd. produces) and the silicon carbide whisker (SiC: Japanese TongHae Carbon.Co.Ltd. produces) of the weight ratio 8% of diameter 0.5～1 μ m, length 100～400 μ m join in the salt powder and evenly mixing, to make a fuse.

The gained core is carried out die casting and compression casting in model, the space distance between the wall of model and the fuse on diameter is arranged to 3mm, 5mm, 7mm, 9mm, 12mm and 15mm, and measures its performance.Provide in result's table 4 below.

Performance for the analytical test fuse, ADC12 Al alloy is heated to 670 ℃ of high-pressure castings of fused mass being carried out die casting with the feed speed of 1.8m/sec, carry out the high-pressure casting of compression casting with the feed speed of 0.32m/sec, the pressure of die casting and compression casting is 980kg/cm ²After high-pressure casting, the extraction of fuse is by realizing at 320～550 ℃ of following heating high-pressure castings 3～5 minutes, fusing fuse and water flushing foundry goods.

Table 4

With the mixture of grit performance at the prepared fuse of forming under the pressure

Core	Die casting (the gap mm between core and the model)						Compression casting (the gap mm between core and the model)
													????3	????5	????7	????9	????12	????15	????3	????5	????7	????9	????12	????15
	????NaNO 2+Al 2O 3	????○	????○	????○	????○	????×	????×	????○	????○	????○	????×	????×													????×
????KNO 2+SiC													????○	????○	????○	????○	????×	????×	????○	????○	????○	????×	????×	????×
	????NaNO 3+Al 2O 3	????○	????○	????○	????○	????○	????×	????○	????○	????○	????○	????×													????×
????NaCl∶CuCl ??(82∶17)+Al 2O 3													????○	????○	????○	????○	????○	????×	????○	????○	????○	????○	????×	????×
	????KNO 3∶KCl ??(92∶8)+Al 2O 3	????○	????○	????○	????○	????×	????×	????○	????○	????○	????○	????×													???×
????KCl∶LiCl ??(54∶46)+SiC													????○	????○	????○	????○	????○	????×	????○	????○	????○	????○	????○	???×
	????KNO 3+SiC	????○	????○	????○	????○	????○	????○	????○	????○	????○	????○	????○													???×
????PbCl 2∶NaCl ??(93∶7)+Al 2O 3													????○	????○	????○	????○	????○	????○	????○	????○	????○	????○	????○	???○
	????MgCl 2∶NaCl ??(54∶44)+SiC	????○	????○	????○	????○	????○	????×	????○	????○	????○	????○	????○													???×
????CaCl 2∶BaCl 2??(53∶47)+SiC													????○	????○	????○	????○	????○	????○	????○	????○	????○	????○	????○	???○
	????NaCl∶CaCl 2??(54∶46)+Al 2O 3	????○	????○	????○	????○	????○	????○	????○	????○	????○	????○	????○													???○

Annotate) zero: be fit to (surface appearance is good)

*: be not suitable for (surface appearance is poor)

Industrial applicibility

As previously mentioned, can make simply with a kind of water soluble salt the fuse of complicated shape, wherein said water soluble salt, be combined separately or with a kind of fine hard powder, fusing is also solidified in a core, and the fusing point of said water soluble salt is in 280～520 ℃ of scopes, and heat transfer coefficient (k) is 9.8 * 10^-2To 1.2 * 10W/m ℃, has high latent heat. In addition, this fuse can be applicable to high-pressure casting such as die casting and the compression casting of light metal such as aluminium alloy or magnesium alloy. At last, heating, fusing and the fuse of extracting out can be reused, thereby produce benefit economically.

Claims (10)

1. a manufacturing is used for the method for the defeated and dispersed core of high-pressure casting, it is characterized in that, a kind of water soluble salt combines separately or with a kind of fine hard powder, and fusing is also solidified in a core; Perhaps be processed into a kind of fine powder, and moulding in a core under pressure, the fusing point of said water soluble salt is in 280～520 ℃ of scopes, and heat transfer coefficient (k) is 9.8 * 10 ^-2To 1.2 * 10W/m ℃, have high latent heat, this defeated and dispersed core can be applicable to a kind of light metal such as aluminium alloy or magnesium alloy and carries out high-pressure casting such as die casting or compression casting thus, and this defeated and dispersed core is made by this water soluble salt.

2. method according to claim 1 is characterized in that, said water soluble salt is from by KNO ₃, KNO ₂, NaNO ₃, NaNO ₂And composition thereof select in the group formed.

3. method according to claim 1 is characterized in that, said water soluble salt is from by selecting the following group that salt mixture constituted, and said salt mixture is: percentage by weight is 82: 17 NaCl: CuCl ₂, percentage by weight is 92: 8 KNO ₃: KCl, percentage by weight are that 54: 46 KCl: LiCl, percentage by weight are 93: 7 PbCl ₂: NaCl, percentage by weight are 54: 44 MgCl ₂: NaCl, percentage by weight are 53: 47 CaCl ₂: BaCl ₂, percentage by weight is 54: 46 NaCl: CaCl ₂

4. according to the arbitrary described method of claim 1 to 3, it is characterized in that said water soluble salt is melting under the temperature that is higher than 30～80 ℃ of its fusion temperatures and solidifying in a model.

5. according to the arbitrary described method of claim 1 to 3, it is characterized in that said model is made with graphite, and be heated to half temperature of said salt fusion temperature.

6. according to the arbitrary described method of claim 1 to 3, it is characterized in that said water soluble salt is processed into the powder of a kind of particle size 40～100 μ m, import in the model and at 80～100MPa forming under the pressure.

7. according to the arbitrary described method of claim 1 to 3, it is characterized in that, add the thin grit of reaction non-chemically of weight ratio 5～30% in the water soluble salt of said fusion, said thin grit is selected from the group of being made up of metal or ceramic powders, fiber and whisker and composition thereof.

8. defeated and dispersed core that is used for high-pressure casting is according to the arbitrary method manufacturing of claim 1 to 7.

9. an extraction is used for the method for the defeated and dispersed core of high-pressure casting, it is characterized in that, said core is heated to fusion temperature, does not have thermal deformation at the foundry goods of this temperature high-pressure casting, the fused mass of this fuse is extracted, and water washes said foundry goods.

10. method according to claim 9 is characterized in that, with the foundry goods of high-pressure casting be heated to 320～550 ℃ 3～5 minutes, with the inside of the said fuse of heat transferred, fuse is melted and takes out so thus.